共查询到20条相似文献,搜索用时 0 毫秒
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Cordelia Bolle Gunnar Huep Nils Kleinbölting Georg Haberer Klaus Mayer Dario Leister Bernd Weisshaar 《The Plant journal : for cell and molecular biology》2013,75(1):157-171
Owing to duplication events in its progenitor, more than 90% of the genes in the Arabidopsis thaliana genome are members of multigene families. A set of 2108 gene families, each consisting of precisely two unlinked paralogous genes, was identified in the nuclear genome of A. thaliana on the basis of sequence similarity. A systematic method for the creation of double knock‐out lines for such gene pairs, designated as DUPLO lines, was established and 200 lines are now publicly available. Their initial phenotypic characterisation led to the identification of seven lines with defects that emerge only in the adult stage. A further six lines display seedling lethality and 23 lines were lethal before germination. Another 14 lines are known to show phenotypes under non‐standard conditions or at the molecular level. Knock‐out of gene pairs with very similar coding sequences or expression profiles is more likely to produce a mutant phenotype than inactivation of gene pairs with dissimilar profiles or sequences. High coding sequence similarity and highly similar expression profiles are only weakly correlated, implying that promoter and coding regions of these gene pairs display different degrees of diversification. 相似文献
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Yoshitsugu Hirose Kunihiro Suda Yao‐Guang Liu Shusei Sato Yukino Nakamura Koji Yokoyama Naoki Yamamoto Shigeru Hanano Eiji Takita Nozomu Sakurai Hideyuki Suzuki Yasukazu Nakamura Takakazu Kaneko Kentaro Yano Satoshi Tabata Daisuke Shibata 《The Plant journal : for cell and molecular biology》2015,83(6):1114-1122
We present a high‐resolution map of genomic transformation‐competent artificial chromosome (TAC) clones extending over all Arabidopsis thaliana (Arabidopsis) chromosomes. The Arabidopsis genomic TAC clones have been valuable genetic tools. Previously, we constructed an Arabidopsis genomic TAC library consisting of more than 10 000 TAC clones harboring large genomic DNA fragments extending over the whole Arabidopsis genome. Here, we determined 13 577 end sequences from 6987 Arabidopsis TAC clones and mapped 5937 TAC clones to precise locations, covering approximately 90% of the Arabidopsis chromosomes. We present the large‐scale data set of TAC clones with high‐resolution mapping information as a Java application tool, the Arabidopsis TAC Position Viewer, which provides ready‐to‐go transformable genomic DNA clones corresponding to certain loci on Arabidopsis chromosomes. The TAC clone resources will accelerate genomic DNA cloning, positional walking, complementation of mutants and DNA transformation for heterologous gene expression. 相似文献
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Bader Arouisse Arthur Korte Fred van Eeuwijk Willem Kruijer 《The Plant journal : for cell and molecular biology》2020,102(4):872-882
Natural variation has become a prime resource to identify genetic variants that contribute to phenotypic variation. The regional mapping (RegMap) population is one of the most important populations for studying natural variation in Arabidopsis thaliana, and has been used in a large number of association studies and in studies on climatic adaptation. However, only 413 RegMap accessions have been completely sequenced, as part of the 1001 Genomes (1001G) Project, while the remaining 894 accessions have only been genotyped with the Affymetrix 250k chip. As a consequence, most association studies involving the RegMap are either restricted to the sequenced accessions, reducing power, or rely on a limited set of SNPs. Here we impute millions of SNPs to the 894 accessions that are exclusive to the RegMap, using the 1135 accessions of the 1001G Project as the reference panel. We assess imputation accuracy using a novel cross‐validation scheme, which we show provides a more reliable measure of accuracy than existing methods. After filtering out low accuracy SNPs, we obtain high‐quality genotypic information for 2029 accessions and 3 million markers. To illustrate the benefits of these imputed data, we reconducted genome‐wide association studies on five stress‐related traits and could identify novel candidate genes. 相似文献
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Byeong Wook Jeon Biswa R. Acharya Sarah M. Assmann 《The Plant journal : for cell and molecular biology》2019,99(2):231-244
Cytosolic calcium concentration ([Ca2+]cyt) and heterotrimeric G‐proteins are universal eukaryotic signaling elements. In plant guard cells, extracellular calcium (Cao) is as strong a stimulus for stomatal closure as the phytohormone abscisic acid (ABA), but underlying mechanisms remain elusive. Here, we report that the sole Arabidopsis heterotrimeric Gβ subunit, AGB1, is required for four guard cell Cao responses: induction of stomatal closure; inhibition of stomatal opening; [Ca2+]cyt oscillation; and inositol 1,4,5‐trisphosphate (InsP3) production. Stomata in wild‐type Arabidopsis (Col) and in mutants of the canonical Gα subunit, GPA1, showed inhibition of stomatal opening and promotion of stomatal closure by Cao. By contrast, stomatal movements of agb1 mutants and agb1/gpa1 double‐mutants, as well as those of the agg1agg2 Gγ double‐mutant, were insensitive to Cao. These behaviors contrast with ABA‐regulated stomatal movements, which involve GPA1 and AGB1/AGG3 dimers, illustrating differential partitioning of G‐protein subunits among stimuli with similar ultimate impacts, which may facilitate stimulus‐specific encoding. AGB1 knockouts retained reactive oxygen species and NO production, but lost YC3.6‐detected [Ca2+]cyt oscillations in response to Cao, initiating only a single [Ca2+]cyt spike. Experimentally imposed [Ca2+]cyt oscillations restored stomatal closure in agb1. Yeast two‐hybrid and bimolecular complementation fluorescence experiments revealed that AGB1 interacts with phospholipase Cs (PLCs), and Cao induced InsP3 production in Col but not in agb1. In sum, G‐protein signaling via AGB1/AGG1/AGG2 is essential for Cao‐regulation of stomatal apertures, and stomatal movements in response to Cao apparently require Ca2+‐induced Ca2+ release that is likely dependent on Gβγ interaction with PLCs leading to InsP3 production. 相似文献
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Ella Katz Sophia Nisani Brijesh S. Yadav Melkamu G. Woldemariam Ben Shai Uri Obolski Marcelo Ehrlich Eilon Shani Georg Jander Daniel A. Chamovitz 《The Plant journal : for cell and molecular biology》2015,82(4):547-555
The glucosinolate breakdown product indole‐3‐carbinol functions in cruciferous vegetables as a protective agent against foraging insects. While the toxic and deterrent effects of glucosinolate breakdown on herbivores and pathogens have been studied extensively, the secondary responses that are induced in the plant by indole‐3‐carbinol remain relatively uninvestigated. Here we examined the hypothesis that indole‐3‐carbinol plays a role in influencing plant growth and development by manipulating auxin signaling. We show that indole‐3‐carbinol rapidly and reversibly inhibits root elongation in a dose‐dependent manner, and that this inhibition is accompanied by a loss of auxin activity in the root meristem. A direct interaction between indole‐3‐carbinol and the auxin perception machinery was suggested, as application of indole‐3‐carbinol rescues auxin‐induced root phenotypes. In vitro and yeast‐based protein interaction studies showed that indole‐3‐carbinol perturbs the auxin‐dependent interaction of Transport Inhibitor Response (TIR1) with auxin/3‐indoleacetic acid (Aux/IAAs) proteins, further supporting the possibility that indole‐3‐carbinol acts as an auxin antagonist. The results indicate that chemicals whose production is induced by herbivory, such as indole‐3‐carbinol, function not only to repel herbivores, but also as signaling molecules that directly compete with auxin to fine tune plant growth and development. 相似文献
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Felix Wolter Jeannette Klemm Holger Puchta 《The Plant journal : for cell and molecular biology》2018,94(4):735-746
Gene targeting (GT), the programmed change of genomic sequences by homologous recombination (HR), is still a major challenge in plants. We previously developed an in planta GT strategy by simultaneously releasing from the genome a dsDNA donor molecule and creating a double‐stranded break (DSB) at a specific site within the targeted gene. Using Cas9 form Streptococcus pyogenes (SpCas9) under the control of a ubiquitin gene promoter, we obtained seeds harbouring GT events, although at a low frequency. In the present research we tested different developmentally controlled promotors and different kinds of DNA lesions for their ability to enhance GT of the acetolactate synthase (ALS) gene of Arabidopsis. For this purpose, we used Staphylococcus aureus Cas9 (SaCas9) nuclease and the SpCas9 nickase in various combinations. Thus, we analysed the effect of single‐stranded break (SSB) activation of a targeted gene and/or the HR donor region. Moreover, we tested whether DSBs with 5′ or 3′ overhangs can improve in planta GT. Interestingly, the use of the SaCas9 nuclease controlled by an egg cell‐specific promoter was the most efficient: depending on the line, in the very best case 6% of all seeds carried GT events. In a third of all lines, the targeting occurred around the 1% range of the tested seeds. Molecular analysis revealed that in about half of the cases perfect HR of both DSB ends occurred. Thus, using the improved technology, it should now be feasible to introduce any directed change into the Arabidopsis genome at will. 相似文献
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Across multicellular organisms, the costs of reproduction and self‐maintenance result in a life history trade‐off between fecundity and longevity. Queens of perennial social Hymenoptera are both highly fertile and long‐lived, and thus, this fundamental trade‐off is lacking. Whether social insect males similarly evade the fecundity/longevity trade‐off remains largely unstudied. Wingless males of the ant genus Cardiocondyla stay in their natal colonies throughout their relatively long lives and mate with multiple female sexuals. Here, we show that Cardiocondyla obscurior males that were allowed to mate with large numbers of female sexuals had a shortened life span compared to males that mated at a low frequency or virgin males. Although frequent mating negatively affects longevity, males clearly benefit from a “live fast, die young strategy” by inseminating as many female sexuals as possible at a cost to their own survival. 相似文献
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S. Truyens B. Beckers S. Thijs N. Weyens A. Cuypers J. Vangronsveld 《Plant biology (Stuttgart, Germany)》2016,18(3):376-381
Trans‐generational adaptation is important to respond rapidly to environmental challenges and increase overall plant fitness. Besides well‐known mechanisms such as epigenetic modifications, vertically transmitted endophytic bacteria might contribute to this process. The cultivable and total endophytic communities of several generations of Arabidopsis thaliana seeds harvested from plants exposed to cadmium (Cd) or not exposed were investigated. The diversity and richness of the seed endophytic community decreased with an increasing number of generations. Aeromicrobium and Pseudonocardia were identified as indicator species in seeds from Cd‐exposed plants, while Rhizobium was abundantly present in both seed types. Remarkably, Rhizobium was the only genus that was consistently detected in seeds of all generations, which suggests that the phenotypic characteristics were more important as selection criteria for which bacteria are transferred to the next plant generation than the actual genera. Production of IAA was an important trait for endophytes from both seed types, while ACC deaminase activity and Cd tolerance were mainly associated with seed endophytes from Cd‐exposed plants. Understanding how different factors influence the seed endophytic community can help us to improve seed quality and plant growth through different biotechnological applications. 相似文献
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Justin Ray Xin Yang Feng Kong Tingwei Guo Fengyan Deng Steven Clough Katrina Ramonell 《Journal of Phytopathology》2018,166(7-8):506-515
Plants are under constant attack from a variety of disease‐causing organisms. Lacking an adaptive immune system, plants repel pathogen attack via an array of pathogen recognition machinery. Receptor‐like kinases (RLKs) are involved in the recognition of pathogen‐associated molecular patterns (PAMPs) and activate resistance pathways against broad classes of pathogens. We have identified powdery mildew‐resistant kinase 1, an Arabidopsis gene encoding an RLK that is highly induced by chitin at early time points and localizes to the plasma membrane. Knockout mutants in pmrk1 are more susceptible to both Golovinomyces cichoracearum and Plectosphaerella cucumerina. Our data show that PMRK1 is essential in early stages of defence against fungi and provide evidence that PMRK1 may be unique to chitin‐induced signalling pathways. The results of this study indicate that PMRK1 is a critical component of plant innate immunity against fungal pathogens. 相似文献